CORT_0G04030 cDNA ORF clone, Candida orthopsilosis Co 90-125

Gene
Clones
gRNAs

Summary

Gene Symbol	CORT_0G04030
Entrez Gene ID	14541832
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Candida orthopsilosis Co 90-125

mRNA and Protein(s)

mRNA	Protein	Name
XM_003871156.1	XP_003871205.1	hypothetical protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Sequence and analysis of the genome of the pathogenic yeast Candida orthopsilosis.
Riccombeni A, Vidanes G, Proux-W?ra E, Wolfe KH, Butler G
PloS one7(4)e35750(2012)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following CORT_0G04030 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CORT_0G04030 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OCa368231	XM_003871156.1 Latest version!	Candida orthopsilosis Co 90-125 hypothetical protein (CORT_0G04030), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

CORT_0G04030 ( XM_003871156.1 ) cDNA ORF clone, Candida orthopsilosis Co 90-125 -> XP_003871205.1 Candida orthopsilosis Co 90-125 hypothetical protein (CORT_0G04030), partial mRNA.

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CloneID	OCa368231
Clone ID Related Accession (Same CDS sequence)	XM_003871156.1
Accession Version	XM_003871156.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3180bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-09-21
Organism	Candida orthopsilosis Co 90-125
Product	hypothetical protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_018301). COMPLETENESS: incomplete on both ends.

ATGACAAGAC TTAGCTCACC ATTCGTTAAA CAAACGTCAT TTGAGGTGGA CTATGCACCG 
GCATTCATTA CTAAATGGAA ATCACAAAGA ACAGGGTTGC AATTAACATA CATCAATCAA 
CCATCACCAG TAGTGAATGG ATATTTTGCA GTTGCCACTG AAATCAGCGA TGATTCTGGC 
TCGCCGCATA CTTTAGAGCA TTTGATCTTT ATGGGATCTA AGAAGTACCC TTACAAAGGT 
TTGTTAGATA CTTTAGGAAA TCGACTCTAC TCACAAACCA ATGCATGGAC AGCGACTGAT 
CAAACGGTGT ATACTTTGAC TACCGCAGGA TGGGACGGGT TCAAGACATT GTTGCCTATT 
TACTTGGACC ATTTGTTTAA TCCTACTTTG ACTGATGAAG CGTGTTTGAC TGAAGTTTAC 
CATGTTGATG GAAAGGGGAA AGAAAAGGGA GTTGTGTTTA GTGAAATGCA AGGTATTCAA 
GGCCAATCAT GGTTTGAAAC TTCTAATCAT TTGCAGAAAA TCTTGTATGC ACCAGAGCTG 
GGGTACTCTT CAGAAACAGG TGGTTTGATG GCTGAATTAC GTCATTTGAC TAACGAGAGG 
ATCAAGGAGT TTCACAAGTC CATGTATAGA CCTGATAATT TATGCGTCAT CATAACTGGA 
TCAATTGACC AAGATGAGCT TTTGCAGATC ATGACTGAGT TCGATGCCGA GTTGCTGGAA 
TTACCATCTG TGGCTAATAA GAGGCCATTT GTTGATTCAA AACACAATGA GCCATTGACG 
GAAGATGTTG TCAAAGTGGT TGAGTTTCCT GAAACCGATG AATCTACAGG TGAGGTATTA 
ATGTCCTGGA TTGGTCCATT GGGGGATGAT CCCGTGATTA ATACTGCTGT TGATATGGTT 
GGAGCTGCAT TCACTGATAG TGCTATTTCA TTATTTAATA AGCATCTTGT GGAGATTGAT 
AACCCATATG CTACTGATGT AGAGTATCAT ACAGATGATT ATTTTAGAAC AGCATTGAAT 
TTCATATGCA ACGGCGTGCC AACTGAAAAA TTGCAAGAGT TGGTGACCAA GTTGAAACAA 
TTGATCAAAT CACAAACTAA TCCTGAAGAT TTTAACTTAT TATACATGAG ACAAATTATC 
AATCAACAAC GATTGAAATT TATATCACAA ACTGAAAAGT CTCCCATTGC ATTTTCAAAC 
ATGGCTATAC TTGATTTTAT CTATGGTAAA CCCGATGGTA GTGATTTACC CAAATGGACT 
CGAAATCTTG ATGAATATGA TGAATTGTTG ACCTGGACGT CACAAAACTG GTGCGATTTG 
ATTAAAGAGT ATTTTGTAGA TAATAAGTGT GCGGTTGTGT TGGGAACTCC ATCAAGGAAA 
TTGAATGATG AAGTGAAGAA ACAACAACGT GAGTTTAACA AGAGTATTAA AGCAAAATTA 
GGTGTTGATG GGTTGAAACA GGCCGGAGAG AAGCTAGCTG CTGCTCACAA GTTTAATGAT 
CGTCCTATTC CTGAAGAGTT GCTTGTTGTG TTCGCCAAAC CTGATCCATC AAAAATTGCA 
TTCATCAAGA CAAGTTCATA CAAGGCAGGA TATAGTAAAG GAATCATTAA CGTTAACACC 
AACCAATATA TTGAATCAGG CGAACTCCAT CAAAAGCTAA CTCAAGACAC GCCATCTGAT 
TTCCCCCTTT TCATGCATTT TGAAAATTTC AAATCGCAAT TTGTCAACAT TCAACTAGTT 
ATGTCATCCA CCAAGATAAA ACCCCATTTA TTAAAATACA TGTCAATAAT GGAAGAAATT 
TTTACCATGT CAATAAAATT TCCTCAGGGG GAGTATATGC CTTATGAACA AGTAGTTGCT 
GATTTGAATC GAGATTTGAT TGAATTTCAA CTTGATAATG GATTCAATTA TCAATTTTTG 
GATTTAATTT CAATGCTGGT TAAATGTGAG ACTAAAAATT ACGGCACTGC AATCAATTGG 
GTTTATAACA TTATTAATTT TGTTGAATTT GAAGAAATGA GGATTAAGGT TATTTTGGAA 
AAAATATTGG GTTCGTTACC GGATAAGAAA CGCAATGGCG AATTGATGAT GTATTCATCA 
CAATTTAGAA ATTTATTCAA TAATTCATCA TTGAGAAAAC AACAGGATTC AATGAATACG 
GAATCGTTTT TCAAGGAATT GTTGCAATTG ATTAATGATG GCAAGTTTGA TACAATTAAG 
CGCGACTTGG ATGAGATTAA ACTGAGTTTG TTTCAGTTGG ATAATATTAA AGTGATTGTA 
TTGGGTGATA TATCTACATT GGAAACTCCA GTTAGTTTGT GGACAAAATT CATCACACAA 
CTGAAGCAGC CAGAAGAAGA GGTTACATCT TCCATTGTTC CGTTTAGTCA ATTGCCAAGA 
TCGTATCAAT TCAAATCGGA TTTAGGTACT CGATGCCATC ATGAAGCATT CCTCATCGAT 
ATGCGAGCTA CTGAATCAAC TCATCTAGTT TCACTTACAA CCATCCCCAC TGATTACTTG 
CATGAAGATG TACCCCGAAT TGCCCTAGCC ATTGAGTTTC TTTGTGCAGT AGAGGGCCCA 
TTTTGGCGAT CAATCAGAGG GTCAGGTTTG GCATATGGTG TATCAATGAA GCAAAATATT 
GAAACTGGGT ATTTGAGTTT TCAACTTTAT CGAGCTTCAG ATGCCAAACA AGGCTGGATC 
GAAGCCAGAG AATTGGTCAA ACGATATGCT CAAGGTGAGT TGTCCATTGA TGCATTAAGT 
TTAGAAAATG CCATAGCAGC AATCGTCAAT GAGATAGCCA ATGCTCAAGA ATCAAGCTAT 
GATTCGGCAA GTGCTAAAAT CAGTGATAAT TTATTCAAAG CTAGAGGGCC CAATTATATT 
GAATTGTACT TGAACCAATT GAATCAATTG GATGCGAATG ATGTTGTATA TGTATTGAAG 
AAATATTTTG TTCATTTATT TGATGCGAAA TATTCTGTGG TTTTCACGAG TTTGCCAATG 
GAGAAAATTG AAGAAATGGG TAATTTTTTC CAAGGAGAAG GGTACAATAT CAATGTGGAG 
GAAGTTAATC ATGATGGGGT TGATGAAGAG GAATTTGAGG AGTATAGTAC AGAAGAAGAA 
GAAGAAGAAG AAGAAGAAGA AGAGAGTGGT GATGAGGAAA GCGACAATGA TAATGAATAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_003871205.1
CDS	1..3180
Translation	MTRLSSPFVKQTSFEVDYAPAFITKWKSQRTGLQLTYINQPSPVVNGYFAVATEISDDSGSPHTLEHLIFMGSKKYPYKGLLDTLGNRLYSQTNAWTATDQTVYTLTTAGWDGFKTLLPIYLDHLFNPTLTDEACLTEVYHVDGKGKEKGVVFSEMQGIQGQSWFETSNHLQKILYAPELGYSSETGGLMAELRHLTNERIKEFHKSMYRPDNLCVIITGSIDQDELLQIMTEFDAELLELPSVANKRPFVDSKHNEPLTEDVVKVVEFPETDESTGEVLMSWIGPLGDDPVINTAVDMVGAAFTDSAISLFNKHLVEIDNPYATDVEYHTDDYFRTALNFICNGVPTEKLQELVTKLKQLIKSQTNPEDFNLLYMRQIINQQRLKFISQTEKSPIAFSNMAILDFIYGKPDGSDLPKWTRNLDEYDELLTWTSQNWCDLIKEYFVDNKCAVVLGTPSRKLNDEVKKQQREFNKSIKAKLGVDGLKQAGEKLAAAHKFNDRPIPEELLVVFAKPDPSKIAFIKTSSYKAGYSKGIINVNTNQYIESGELHQKLTQDTPSDFPLFMHFENFKSQFVNIQLVMSSTKIKPHLLKYMSIMEEIFTMSIKFPQGEYMPYEQVVADLNRDLIEFQLDNGFNYQFLDLISMLVKCETKNYGTAINWVYNIINFVEFEEMRIKVILEKILGSLPDKKRNGELMMYSSQFRNLFNNSSLRKQQDSMNTESFFKELLQLINDGKFDTIKRDLDEIKLSLFQLDNIKVIVLGDISTLETPVSLWTKFITQLKQPEEEVTSSIVPFSQLPRSYQFKSDLGTRCHHEAFLIDMRATESTHLVSLTTIPTDYLHEDVPRIALAIEFLCAVEGPFWRSIRGSGLAYGVSMKQNIETGYLSFQLYRASDAKQGWIEARELVKRYAQGELSIDALSLENAIAAIVNEIANAQESSYDSASAKISDNLFKARGPNYIELYLNQLNQLDANDVVYVLKKYFVHLFDAKYSVVFTSLPMEKIEEMGNFFQGEGYNINVEEVNHDGVDEEEFEEYSTEEEEEEEEEEESGDEESDNDNE

Target ORF information:

RefSeq Version	XM_003871156.1
Organism	Candida orthopsilosis Co 90-125
Definition	Candida orthopsilosis Co 90-125 hypothetical protein (CORT_0G04030), partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_003871156.1

ORF Insert Sequence:

ATGACAAGAC TTAGCTCACC ATTCGTTAAA CAAACGTCAT TTGAGGTGGA CTATGCACCG 
GCATTCATTA CTAAATGGAA ATCACAAAGA ACAGGGTTGC AATTAACATA CATCAATCAA 
CCATCACCAG TAGTGAATGG ATATTTTGCA GTTGCCACTG AAATCAGCGA TGATTCTGGC 
TCGCCGCATA CTTTAGAGCA TTTGATCTTT ATGGGATCTA AGAAGTACCC TTACAAAGGT 
TTGTTAGATA CTTTAGGAAA TCGACTCTAC TCACAAACCA ATGCATGGAC AGCGACTGAT 
CAAACGGTGT ATACTTTGAC TACCGCAGGA TGGGACGGGT TCAAGACATT GTTGCCTATT 
TACTTGGACC ATTTGTTTAA TCCTACTTTG ACTGATGAAG CGTGTTTGAC TGAAGTTTAC 
CATGTTGATG GAAAGGGGAA AGAAAAGGGA GTTGTGTTTA GTGAAATGCA AGGTATTCAA 
GGCCAATCAT GGTTTGAAAC TTCTAATCAT TTGCAGAAAA TCTTGTATGC ACCAGAGCTG 
GGGTACTCTT CAGAAACAGG TGGTTTGATG GCTGAATTAC GTCATTTGAC TAACGAGAGG 
ATCAAGGAGT TTCACAAGTC CATGTATAGA CCTGATAATT TATGCGTCAT CATAACTGGA 
TCAATTGACC AAGATGAGCT TTTGCAGATC ATGACTGAGT TCGATGCCGA GTTGCTGGAA 
TTACCATCTG TGGCTAATAA GAGGCCATTT GTTGATTCAA AACACAATGA GCCATTGACG 
GAAGATGTTG TCAAAGTGGT TGAGTTTCCT GAAACCGATG AATCTACAGG TGAGGTATTA 
ATGTCCTGGA TTGGTCCATT GGGGGATGAT CCCGTGATTA ATACTGCTGT TGATATGGTT 
GGAGCTGCAT TCACTGATAG TGCTATTTCA TTATTTAATA AGCATCTTGT GGAGATTGAT 
AACCCATATG CTACTGATGT AGAGTATCAT ACAGATGATT ATTTTAGAAC AGCATTGAAT 
TTCATATGCA ACGGCGTGCC AACTGAAAAA TTGCAAGAGT TGGTGACCAA GTTGAAACAA 
TTGATCAAAT CACAAACTAA TCCTGAAGAT TTTAACTTAT TATACATGAG ACAAATTATC 
AATCAACAAC GATTGAAATT TATATCACAA ACTGAAAAGT CTCCCATTGC ATTTTCAAAC 
ATGGCTATAC TTGATTTTAT CTATGGTAAA CCCGATGGTA GTGATTTACC CAAATGGACT 
CGAAATCTTG ATGAATATGA TGAATTGTTG ACCTGGACGT CACAAAACTG GTGCGATTTG 
ATTAAAGAGT ATTTTGTAGA TAATAAGTGT GCGGTTGTGT TGGGAACTCC ATCAAGGAAA 
TTGAATGATG AAGTGAAGAA ACAACAACGT GAGTTTAACA AGAGTATTAA AGCAAAATTA 
GGTGTTGATG GGTTGAAACA GGCCGGAGAG AAGCTAGCTG CTGCTCACAA GTTTAATGAT 
CGTCCTATTC CTGAAGAGTT GCTTGTTGTG TTCGCCAAAC CTGATCCATC AAAAATTGCA 
TTCATCAAGA CAAGTTCATA CAAGGCAGGA TATAGTAAAG GAATCATTAA CGTTAACACC 
AACCAATATA TTGAATCAGG CGAACTCCAT CAAAAGCTAA CTCAAGACAC GCCATCTGAT 
TTCCCCCTTT TCATGCATTT TGAAAATTTC AAATCGCAAT TTGTCAACAT TCAACTAGTT 
ATGTCATCCA CCAAGATAAA ACCCCATTTA TTAAAATACA TGTCAATAAT GGAAGAAATT 
TTTACCATGT CAATAAAATT TCCTCAGGGG GAGTATATGC CTTATGAACA AGTAGTTGCT 
GATTTGAATC GAGATTTGAT TGAATTTCAA CTTGATAATG GATTCAATTA TCAATTTTTG 
GATTTAATTT CAATGCTGGT TAAATGTGAG ACTAAAAATT ACGGCACTGC AATCAATTGG 
GTTTATAACA TTATTAATTT TGTTGAATTT GAAGAAATGA GGATTAAGGT TATTTTGGAA 
AAAATATTGG GTTCGTTACC GGATAAGAAA CGCAATGGCG AATTGATGAT GTATTCATCA 
CAATTTAGAA ATTTATTCAA TAATTCATCA TTGAGAAAAC AACAGGATTC AATGAATACG 
GAATCGTTTT TCAAGGAATT GTTGCAATTG ATTAATGATG GCAAGTTTGA TACAATTAAG 
CGCGACTTGG ATGAGATTAA ACTGAGTTTG TTTCAGTTGG ATAATATTAA AGTGATTGTA 
TTGGGTGATA TATCTACATT GGAAACTCCA GTTAGTTTGT GGACAAAATT CATCACACAA 
CTGAAGCAGC CAGAAGAAGA GGTTACATCT TCCATTGTTC CGTTTAGTCA ATTGCCAAGA 
TCGTATCAAT TCAAATCGGA TTTAGGTACT CGATGCCATC ATGAAGCATT CCTCATCGAT 
ATGCGAGCTA CTGAATCAAC TCATCTAGTT TCACTTACAA CCATCCCCAC TGATTACTTG 
CATGAAGATG TACCCCGAAT TGCCCTAGCC ATTGAGTTTC TTTGTGCAGT AGAGGGCCCA 
TTTTGGCGAT CAATCAGAGG GTCAGGTTTG GCATATGGTG TATCAATGAA GCAAAATATT 
GAAACTGGGT ATTTGAGTTT TCAACTTTAT CGAGCTTCAG ATGCCAAACA AGGCTGGATC 
GAAGCCAGAG AATTGGTCAA ACGATATGCT CAAGGTGAGT TGTCCATTGA TGCATTAAGT 
TTAGAAAATG CCATAGCAGC AATCGTCAAT GAGATAGCCA ATGCTCAAGA ATCAAGCTAT 
GATTCGGCAA GTGCTAAAAT CAGTGATAAT TTATTCAAAG CTAGAGGGCC CAATTATATT 
GAATTGTACT TGAACCAATT GAATCAATTG GATGCGAATG ATGTTGTATA TGTATTGAAG 
AAATATTTTG TTCATTTATT TGATGCGAAA TATTCTGTGG TTTTCACGAG TTTGCCAATG 
GAGAAAATTG AAGAAATGGG TAATTTTTTC CAAGGAGAAG GGTACAATAT CAATGTGGAG 
GAAGTTAATC ATGATGGGGT TGATGAAGAG GAATTTGAGG AGTATAGTAC AGAAGAAGAA 
GAAGAAGAAG AAGAAGAAGA AGAGAGTGGT GATGAGGAAA GCGACAATGA TAATGAATAA